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I know that throwing from a destructor is in general a bad idea, but I was wondering if i could use std::uncaught_exception() to safely throw from a destructor.

Consider the following RAII type:

struct RAIIType {

   ~RAIIType() {
      //do stuff..
      if (SomethingBadHappened()) {
           //Assume that if an exception is already active, we don't really need to detect this error
           if (!std::uncaught_exception()) {
               throw std::runtime_error("Data corrupted");

Is this UB in c++11? Is it a bad design?

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It is all explained here. – Andy Prowl Mar 21 '13 at 16:06
@AndyProwl That explains pretty much everything. – sbabbi Mar 21 '13 at 16:27
Indeed. I did not bother writing an answer, cause it would have been just a bad or partial copy of that article – Andy Prowl Mar 21 '13 at 16:34
up vote 1 down vote accepted

I know that throwing from a destructor is in general a bad idea, but I was wondering if i could use std::uncaught_exception() to safely throw from a destructor.

You may like to have a look at uncaught_exceptions proposal from Herb Sutter:


std::uncaught_exception is known to be “nearly useful” in many situations, such as when implementing an Alexandrescu-style ScopeGuard. [1] In particular, when called in a destructor, what C++ programmers often expect and what is basically true is: “uncaught_exception returns true iff this destructor is being called during stack unwinding.”

However, as documented at least since 1998 in Guru of the Week #47, it means code that is transitively called from a destructor that could itself be invoked during stack unwinding cannot correctly detect whether it itself is actually being called as part of unwinding. Once you’re in unwinding of any exception, to uncaught_exception everything looks like unwinding, even if there is more than one active exception.


This paper proposes a new function int std::uncaught_exceptions() that returns the number of exceptions currently active, meaning thrown or rethrown but not yet handled.

A type that wants to know whether its destructor is being run to unwind this object can query uncaught_exceptions in its constructor and store the result, then query uncaught_exceptions again in its destructor; if the result is different, then this destructor is being invoked as part of stack unwinding due to a new exception that was thrown later than the object’s construction.

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Funny thing is, I learnt about uncaught_exceptions recently, but I forgot that I posted this question. – sbabbi Sep 30 '15 at 10:51
uncaught_exceptions() isn't merely a proposal, but bool std::uncaught_exceptions() part of the C++ standard, see also my answer given earlier. – Walter Sep 30 '15 at 11:46
@Walter You seem to be confusing things. std::uncaught_exceptions is to be available in C++17, see en.cppreference.com/w/cpp/error/uncaught_exception. gcc-5.2, for example, does not provide it. – Maxim Egorushkin Sep 30 '15 at 11:53
@MaximEgorushkin Ahem. Sorry, but it's you who are confusing things. As the very resource you're referring to says, int std::uncaught_exceptions() will be available in C++17, but bool std::uncaught_exceptions() (as mentioned in my previous comment) is available in C++11 (and will be deprecated in C++17, see also here). That website doesn't say this well, but a hint is given in the exceptions section. And code using this compiles fine with gcc 5.1. – Walter Sep 30 '15 at 12:35
@Walter bool std::uncaught_exceptions() is available in C++11 - nope, it is not. You may like to learn how to read carefully and thoughtfully. – Maxim Egorushkin Sep 30 '15 at 12:37

You have an if, did you think about the "other" condition? It can throw an exception or... do what? There's two things that can be in the other branch.

  • Nothing (If nothing needs to happen when the error occurs, why throw an exception?)
  • It "handles" the exception (If it can be "handled", why throw an exception?)

Now that we've established that there's no purpose to throwing an exception conditionally like that, the rest of the question is sort of moot. But here's a tidbit: NEVER THROW EXCEPTIONS FROM DESTRUCTORS. If an object throws an exception, the calling code normally checks that object in some way to "handle" the exception. If that object no longer exists, there's usually no way to "handle" the exception, meaning the exception should not be thrown. Either it's ignored, or the program makes a dump file and aborts. So throwing exceptions from destructors is pointless anyway, because catching it is pointless. With this is mind, classes assume that destructors won't throw, and virtually every class leaks resources if a destructor throws. So NEVER THROW EXCEPTIONS FROM DESTRUCTORS.

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Note that your code doesn't do what you think it does. In case SomethingBadHappened and there is no stack unwinding in place, you attempt to throw from a destructor and nonetheless std::terminate is called. This is the new behavior in C++11 (see this article). You will need to annotate your destructor with noexcept(false) specification.

Suppose you do this, it is not clear what you mean by "safely". Your destructor never triggers std::terminate directly. But calling std::terminate is not a UB: it is very well defined and useful (see this article).

For sure, you cannot put your class RAIIType into STL containers. The C++ Standard explicitly calls that UB (when a destructor throws in an STL container).

Also, the design look suspicious: the if-statement really means "sometimes report a failure and sometimes not". Are you fine with this?

See also this post for a similar discussion.

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It depends what you mean by "safely".

That will prevent one of the issues with throwing from a destructor - the program won't be terminated if the error happens during stack unwinding when handling another exception.

However, there are still issues, among them:

  • If you have an array of these, then they may not all be destroyed if one throws on destruction.
  • Some exception-safety idioms rely on non-throwing destruction.
  • Many people (such as myself) don't know all the rules governing what will or won't be correctly destroyed if a destructor throws, and won't be confident that they can use your class safely.
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I disagree with your sentiment that throwing from a destructor is in general a bad idea. It is sometimes the best way as it can exploit the call semantic of destructors, i.e. RAII.

However, throwing out of a destructor requires extra care.

  1. You must guard against ongoing stack unwinding due to another exception in flight. This can be achieved via std::uncaught_exception() as you do.

  2. You must explicitly declare the throwing destructor as noexcept(false), for otherwise it will be implicitly declared as noexcept (i.e. noexcept(true)), which upon throwing the exception triggers an immediate call to terminate().

  3. You must ensure that your RAII class throwing out of its destructor is not passed explicitly or implicitly (as base or member) into code that assumes objects destruct without throwing exceptions. Such code includes all standard library containers.


struct RAIIType {

   ~RAIIType() noexcept(false)
      //do stuff..
      if(SomethingBadHappened() &&
         !std::uncaught_exception()) // avoid throwing another exception
        throw std::runtime_error("Data corrupted");

will be okay and generates an exception that can be caught (rather than calls terminate immediately). Use it only internally in code satisfying point 3 above.

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